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827475fc8b
Reviewed-by: Neil Horman <nhorman@openssl.org> Reviewed-by: Matt Caswell <matt@openssl.org> Reviewed-by: Tomas Mraz <tomas@openssl.org> (Merged from https://github.com/openssl/openssl/pull/23360)
454 lines
18 KiB
C
454 lines
18 KiB
C
#ifndef OSSL_QUIC_CHANNEL_LOCAL_H
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# define OSSL_QUIC_CHANNEL_LOCAL_H
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# include "internal/quic_channel.h"
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# ifndef OPENSSL_NO_QUIC
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# include <openssl/lhash.h>
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# include "internal/list.h"
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# include "internal/quic_predef.h"
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# include "internal/quic_fc.h"
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# include "internal/quic_stream_map.h"
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/*
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* QUIC Channel Structure
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* ======================
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*
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* QUIC channel internals. It is intended that only the QUIC_CHANNEL
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* implementation and the RX depacketiser be allowed to access this structure
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* directly. As the RX depacketiser has no state of its own and computes over a
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* QUIC_CHANNEL structure, it can be viewed as an extension of the QUIC_CHANNEL
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* implementation. While the RX depacketiser could be provided with adequate
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* accessors to do what it needs, this would weaken the abstraction provided by
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* the QUIC_CHANNEL to other components; moreover the coupling of the RX
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* depacketiser to QUIC_CHANNEL internals is too deep and bespoke to make this
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* desirable.
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*
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* Other components should not include this header.
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*/
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struct quic_channel_st {
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QUIC_PORT *port;
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/*
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* QUIC_PORT keeps the channels which belong to it on a list for bookkeeping
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* purposes.
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*/
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OSSL_LIST_MEMBER(ch, struct quic_channel_st);
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/*
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* The associated TLS 1.3 connection data. Used to provide the handshake
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* layer; its 'network' side is plugged into the crypto stream for each EL
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* (other than the 0-RTT EL).
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*/
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QUIC_TLS *qtls;
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SSL *tls;
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/* Port LCIDM we use to register LCIDs. */
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QUIC_LCIDM *lcidm;
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/* SRTM we register SRTs with. */
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QUIC_SRTM *srtm;
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/* Optional QLOG instance (or NULL). */
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QLOG *qlog;
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/*
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* The transport parameter block we will send or have sent.
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* Freed after sending or when connection is freed.
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*/
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unsigned char *local_transport_params;
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/* Our current L4 peer address, if any. */
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BIO_ADDR cur_peer_addr;
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/*
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* Subcomponents of the connection. All of these components are instantiated
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* and owned by us.
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*/
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OSSL_QUIC_TX_PACKETISER *txp;
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QUIC_TXPIM *txpim;
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QUIC_CFQ *cfq;
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/*
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* Connection level FC. The stream_count RXFCs is used to manage
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* MAX_STREAMS signalling.
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*/
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QUIC_TXFC conn_txfc;
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QUIC_RXFC conn_rxfc, crypto_rxfc[QUIC_PN_SPACE_NUM];
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QUIC_RXFC max_streams_bidi_rxfc, max_streams_uni_rxfc;
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QUIC_STREAM_MAP qsm;
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OSSL_STATM statm;
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OSSL_CC_DATA *cc_data;
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const OSSL_CC_METHOD *cc_method;
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OSSL_ACKM *ackm;
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/* Record layers in the TX and RX directions. */
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OSSL_QTX *qtx;
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OSSL_QRX *qrx;
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/* Message callback related arguments */
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ossl_msg_cb msg_callback;
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void *msg_callback_arg;
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SSL *msg_callback_ssl;
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/*
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* Send and receive parts of the crypto streams.
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* crypto_send[QUIC_PN_SPACE_APP] is the 1-RTT crypto stream. There is no
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* 0-RTT crypto stream.
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*/
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QUIC_SSTREAM *crypto_send[QUIC_PN_SPACE_NUM];
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QUIC_RSTREAM *crypto_recv[QUIC_PN_SPACE_NUM];
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/* Internal state. */
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/*
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* Client: The DCID used in the first Initial packet we transmit as a client.
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* Server: The DCID used in the first Initial packet the client transmitted.
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* Randomly generated and required by RFC to be at least 8 bytes.
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*/
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QUIC_CONN_ID init_dcid;
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/*
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* Client: The SCID found in the first Initial packet from the server.
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* Not valid for servers.
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* Valid if have_received_enc_pkt is set.
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*/
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QUIC_CONN_ID init_scid;
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/*
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* Client only: The SCID found in an incoming Retry packet we handled.
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* Not valid for servers.
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*/
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QUIC_CONN_ID retry_scid;
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/* Server only: The DCID we currently expect the peer to use to talk to us. */
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QUIC_CONN_ID cur_local_cid;
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/*
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* The DCID we currently use to talk to the peer and its sequence num.
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*/
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QUIC_CONN_ID cur_remote_dcid;
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uint64_t cur_remote_seq_num;
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uint64_t cur_retire_prior_to;
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/* Transport parameter values we send to our peer. */
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uint64_t tx_init_max_stream_data_bidi_local;
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uint64_t tx_init_max_stream_data_bidi_remote;
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uint64_t tx_init_max_stream_data_uni;
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uint64_t tx_max_ack_delay; /* ms */
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/* Transport parameter values received from server. */
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uint64_t rx_init_max_stream_data_bidi_local;
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uint64_t rx_init_max_stream_data_bidi_remote;
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uint64_t rx_init_max_stream_data_uni;
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uint64_t rx_max_ack_delay; /* ms */
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unsigned char rx_ack_delay_exp;
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/* Diagnostic counters for testing purposes only. May roll over. */
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uint16_t diag_num_rx_ack; /* Number of ACK frames received */
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/*
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* Temporary staging area to store information about the incoming packet we
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* are currently processing.
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*/
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OSSL_QRX_PKT *qrx_pkt;
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/*
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* Current limit on number of streams we may create. Set by transport
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* parameters initially and then by MAX_STREAMS frames.
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*/
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uint64_t max_local_streams_bidi;
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uint64_t max_local_streams_uni;
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/* The idle timeout values we and our peer requested. */
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uint64_t max_idle_timeout_local_req;
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uint64_t max_idle_timeout_remote_req;
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/* The negotiated maximum idle timeout in milliseconds. */
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uint64_t max_idle_timeout;
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/*
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* Maximum payload size in bytes for datagrams sent to our peer, as
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* negotiated by transport parameters.
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*/
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uint64_t rx_max_udp_payload_size;
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/* Maximum active CID limit, as negotiated by transport parameters. */
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uint64_t rx_active_conn_id_limit;
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/*
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* Used to allocate stream IDs. This is a stream ordinal, i.e., a stream ID
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* without the low two bits designating type and initiator. Shift and or in
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* the type bits to convert to a stream ID.
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*/
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uint64_t next_local_stream_ordinal_bidi;
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uint64_t next_local_stream_ordinal_uni;
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/*
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* Used to track which stream ordinals within a given stream type have been
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* used by the remote peer. This is an optimisation used to determine
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* which streams should be implicitly created due to usage of a higher
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* stream ordinal.
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*/
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uint64_t next_remote_stream_ordinal_bidi;
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uint64_t next_remote_stream_ordinal_uni;
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/*
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* Application error code to be used for STOP_SENDING/RESET_STREAM frames
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* used to autoreject incoming streams.
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*/
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uint64_t incoming_stream_auto_reject_aec;
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/*
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* Override packet count threshold at which we do a spontaneous TXKU.
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* Usually UINT64_MAX in which case a suitable value is chosen based on AEAD
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* limit advice from the QRL utility functions. This is intended for testing
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* use only. Usually set to UINT64_MAX.
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*/
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uint64_t txku_threshold_override;
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/* Valid if we are in the TERMINATING or TERMINATED states. */
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QUIC_TERMINATE_CAUSE terminate_cause;
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/*
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* Deadline at which we move to TERMINATING state. Valid if in the
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* TERMINATING state.
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*/
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OSSL_TIME terminate_deadline;
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/*
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* Deadline at which connection dies due to idle timeout if no further
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* events occur.
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*/
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OSSL_TIME idle_deadline;
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/*
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* Deadline at which we should send an ACK-eliciting packet to ensure
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* idle timeout does not occur.
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*/
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OSSL_TIME ping_deadline;
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/*
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* The deadline at which the period in which it is RECOMMENDED that we not
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* initiate any spontaneous TXKU ends. This is zero if no such deadline
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* applies.
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*/
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OSSL_TIME txku_cooldown_deadline;
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/*
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* The deadline at which we take the QRX out of UPDATING and back to NORMAL.
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* Valid if rxku_in_progress in 1.
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*/
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OSSL_TIME rxku_update_end_deadline;
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/*
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* The first (application space) PN sent with a new key phase. Valid if the
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* QTX key epoch is greater than 0. Once a packet we sent with a PN p (p >=
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* txku_pn) is ACKed, the TXKU is considered completed and txku_in_progress
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* becomes 0. For sanity's sake, such a PN p should also be <= the highest
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* PN we have ever sent, of course.
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*/
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QUIC_PN txku_pn;
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/*
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* The (application space) PN which triggered RXKU detection. Valid if
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* rxku_pending_confirm.
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*/
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QUIC_PN rxku_trigger_pn;
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/*
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* State tracking. QUIC connection-level state is best represented based on
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* whether various things have happened yet or not, rather than as an
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* explicit FSM. We do have a coarse state variable which tracks the basic
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* state of the connection's lifecycle, but more fine-grained conditions of
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* the Active state are tracked via flags below. For more details, see
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* doc/designs/quic-design/connection-state-machine.md. We are in the Open
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* state if the state is QUIC_CHANNEL_STATE_ACTIVE and handshake_confirmed is
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* set.
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*/
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unsigned int state : 3;
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/*
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* Have we received at least one encrypted packet from the peer?
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* (If so, Retry and Version Negotiation messages should no longer
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* be received and should be ignored if they do occur.)
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*/
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unsigned int have_received_enc_pkt : 1;
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/*
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* Have we successfully processed any packet, including a Version
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* Negotiation packet? If so, further Version Negotiation packets should be
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* ignored.
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*/
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unsigned int have_processed_any_pkt : 1;
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/*
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* Have we sent literally any packet yet? If not, there is no point polling
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* RX.
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*/
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unsigned int have_sent_any_pkt : 1;
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/*
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* Are we currently doing proactive version negotiation?
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*/
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unsigned int doing_proactive_ver_neg : 1;
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/* We have received transport parameters from the peer. */
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unsigned int got_remote_transport_params : 1;
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/* We have generated our local transport parameters. */
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unsigned int got_local_transport_params : 1;
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/*
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* This monotonically transitions to 1 once the TLS state machine is
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* 'complete', meaning that it has both sent a Finished and successfully
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* verified the peer's Finished (see RFC 9001 s. 4.1.1). Note that it
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* does not transition to 1 at both peers simultaneously.
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*
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* Handshake completion is not the same as handshake confirmation (see
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* below).
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*/
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unsigned int handshake_complete : 1;
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/*
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* This monotonically transitions to 1 once the handshake is confirmed.
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* This happens on the client when we receive a HANDSHAKE_DONE frame.
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* At our option, we may also take acknowledgement of any 1-RTT packet
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* we sent as a handshake confirmation.
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*/
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unsigned int handshake_confirmed : 1;
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/*
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* We are sending Initial packets based on a Retry. This means we definitely
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* should not receive another Retry, and if we do it is an error.
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*/
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unsigned int doing_retry : 1;
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/*
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* We don't store the current EL here; the TXP asks the QTX which ELs
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* are provisioned to determine which ELs to use.
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*/
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/* Have statm, qsm been initialised? Used to track cleanup. */
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unsigned int have_statm : 1;
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unsigned int have_qsm : 1;
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/*
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* Preferred ELs for transmission and reception. This is not strictly needed
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* as it can be inferred from what keys we have provisioned, but makes
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* determining the current EL simpler and faster. A separate EL for
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* transmission and reception is not strictly necessary but makes things
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* easier for interoperation with the handshake layer, which likes to invoke
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* the yield secret callback at different times for TX and RX.
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*/
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unsigned int tx_enc_level : 3;
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unsigned int rx_enc_level : 3;
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/* If bit n is set, EL n has been discarded. */
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unsigned int el_discarded : 4;
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/*
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* While in TERMINATING - CLOSING, set when we should generate a connection
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* close frame.
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*/
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unsigned int conn_close_queued : 1;
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/* Are we in server mode? Never changes after instantiation. */
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unsigned int is_server : 1;
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/*
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* Set temporarily when the handshake layer has given us a new RX secret.
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* Used to determine if we need to check our RX queues again.
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*/
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unsigned int have_new_rx_secret : 1;
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/* Have we ever called QUIC_TLS yet during RX processing? */
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unsigned int did_tls_tick : 1;
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/* Has any CRYPTO frame been processed during this tick? */
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unsigned int did_crypto_frame : 1;
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/*
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* Have we sent an ack-eliciting packet since the last successful packet
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* reception? Used to determine when to bump idle timer (see RFC 9000 s.
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* 10.1).
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*/
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unsigned int have_sent_ack_eliciting_since_rx : 1;
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/* Should incoming streams automatically be rejected? */
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unsigned int incoming_stream_auto_reject : 1;
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/*
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* 1 if a key update sequence was locally initiated, meaning we sent the
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* TXKU first and the resultant RXKU shouldn't result in our triggering
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* another TXKU. 0 if a key update sequence was initiated by the peer,
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* meaning we detect a RXKU first and have to generate a TXKU in response.
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*/
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unsigned int ku_locally_initiated : 1;
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/*
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* 1 if we have triggered TXKU (whether spontaneous or solicited) but are
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* waiting for any PN using that new KP to be ACKed. While this is set, we
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* are not allowed to trigger spontaneous TXKU (but solicited TXKU is
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* potentially still possible).
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*/
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unsigned int txku_in_progress : 1;
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/*
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* We have received an RXKU event and currently are going through
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* UPDATING/COOLDOWN on the QRX. COOLDOWN is currently not used. Since RXKU
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* cannot be detected in this state, this doesn't cause a protocol error or
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* anything similar if a peer tries TXKU in this state. That traffic would
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* simply be dropped. It's only used to track that our UPDATING timer is
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* active so we know when to take the QRX out of UPDATING and back to
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* NORMAL.
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*/
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unsigned int rxku_in_progress : 1;
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/*
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* We have received an RXKU but have yet to send an ACK for it, which means
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* no further RXKUs are allowed yet. Note that we cannot detect further
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* RXKUs anyway while the QRX remains in the UPDATING/COOLDOWN states, so
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* this restriction comes into play if we take more than PTO time to send
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* an ACK for it (not likely).
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*/
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unsigned int rxku_pending_confirm : 1;
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/* Temporary variable indicating rxku_pending_confirm is to become 0. */
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unsigned int rxku_pending_confirm_done : 1;
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/*
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* If set, RXKU is expected (because we initiated a spontaneous TXKU).
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*/
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unsigned int rxku_expected : 1;
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/* Permanent net error encountered */
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unsigned int net_error : 1;
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/*
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* Protocol error encountered. Note that you should refer to the state field
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* rather than this. This is only used so we can ignore protocol errors
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* after the first protocol error, but still record the first protocol error
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* if it happens during the TERMINATING state.
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*/
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unsigned int protocol_error : 1;
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/* Are we using addressed mode? */
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unsigned int addressed_mode : 1;
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/* Are we on the QUIC_PORT linked list of channels? */
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unsigned int on_port_list : 1;
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/* Has qlog been requested? */
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unsigned int use_qlog : 1;
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/* Saved error stack in case permanent error was encountered */
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ERR_STATE *err_state;
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/* Scratch area for use by RXDP to store decoded ACK ranges. */
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OSSL_QUIC_ACK_RANGE *ack_range_scratch;
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size_t num_ack_range_scratch;
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/* Title for qlog purposes. We own this copy. */
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char *qlog_title;
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};
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# endif
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#endif
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